New insights into the dynamic edge of fusion plasmas could help capture the power that drives the sun and stars
Princeton Plasma Physics LaboratoryUnique PPPL simulations reveal new understanding of the highly complex edge of fusion plasmas.
Unique PPPL simulations reveal new understanding of the highly complex edge of fusion plasmas.
The Princeton Plasma Physics Laboratory has appointed David Graves, an internationally known chemical engineer, to head a new research enterprise that will explore plasma applications in semiconductor manufacturing and the next generation of super-fast quantum computers.
New research points to improved control of troublesome magnetic islands in future fusion facilities.
Graduate student in plasma physics at the Princeton Plasma Physics Laboratory has won a highly selective honorific fellowship from Princeton University.
PPPL scientists have borrowed a technique from applied mathematics to rapidly predict the behavior of fusion plasma at a much-reduced computational cost.
The first detailed model of the interaction between the solar wind and the magnetic field that surrounds Mercury, findings that could lead to improved understanding of the stronger field around Earth.
PPPL researchers find that jumbled magnetic fields in the core of fusion plasmas can cause the entire plasma discharge to suddenly collapse.
A summary of key points of the fusion and plasma science community's year-long Community Planning Process that proposes accelerating development of these strategic fields.
Research led by a Princeton University graduate student demonstrates that machine learning can predict and avoid damaging disruptions to fusion facilities.
Permanent magnets can, in principle, greatly simplify the design and production of the complex coils of stellarator fusion facilities.
Injecting pellets of hydrogen ice rather than puffing hydrogen gas improves fusion performance. Studies by PPPL and ORNL physicists compared the two methods on the DIII-D National Fusion Facility, looking ahead to the injection fueling planned for ITER.
New application of deep learning allows prediction of disruptions from raw, high-resolution data from fusion energy experiments.
Advanced design of the world's largest and most powerful stellarator demonstrates the ability to moderate heat loss from the plasma that fuels fusion reactions.
Magnetic field lines that wrap around the Earth protect our planet from cosmic rays. Researchers at PPPL have now found that beams of fast-moving particles launched toward Earth from a satellite could help map the precise shape of the field.
Feature highlights PPPL accomplishments over the past 10 years.
A detailed analysis of evolution of the trigger that sets off fast magnetic reconnection.
The American Physical Society (APS) has recognized a former PPPL summer intern for producing an outstanding research poster at the world-wide APS Division of Plasma Physics (DPP) gathering last October. The student used machine learning to accelerate a leading PPPL computer code known as XGC.
State-of-the-art simulation confirms a key source of heat and energy loss in spherical fusion facilities.
PPPL will use INCITE-award time on Summit and Theta supercomputers to develop predictions for the performance of ITER, the international experiment under construction to demonstrate the feasibility of fusion energy.
Scientists often make progress by coming up with new ways to look at old problems. That has happened at PPPL, where physicists have used a simple insight to capture the complex effects of many high-frequency waves in a fusion plasma.
Arms control robots, a new national facility, and accelerating the drive to bring the fusion energy that powers the stars to Earth: Ten (and a triple bonus!) Must-Read Stories of 2019 from PPPL
PPPL scientists have found that sprinkling a type of powder into fusion plasma could aid in harnessing the ultra-hot gas within a tokamak facility to produce heat to create electricity without producing greenhouse gases or long-term radioactive waste.
Feature profiles PPPL Distinguished Engineering Fellow recipient Alex Nagy
Profiles of winners of PPPL's 2019 Kaul Foundation Prize recipients.
PPPL begins its weekly series of lectures in the Ronald E. Hatcher Science on Saturday Lecture series in January. The 10-week series on a variety of cutting-edge science topics kicks off on Jan. 11 with a talk on "Visual Perception and the Art of the Brain."
PPPL invention could improve efficiency of engines while reducing pollutants.
PPPL physicists have identified a method by which instabilities can be tamed and heat can be prevented from leaking from fusion plasma, giving scientists a better grasp on how to optimize conditions for fusion in devices known as tokamaks.
James W. Clark, PPPL's first deputy director for administrative operations, was a decorated World War II veteran with a long career in public service, who died Aug. 6. A memorial service in his honor will be held Dec. 21.
The Princeton Plasma Physics Laboratory's new rotational engineering program allows early-career engineers to receive a variety of training as they rotate through four different engineering areas during the two-year program.
Simulations show that halo currents can serve as a proxy for the total force produced by vertical disruptions.
The U.S. Department of Energy's Princeton Plasma Physics Laboratory was recognized by the U.S. Environmental Protection Agency for its green practices in reducing waste, energy, and water, and transportation, and for green purchasing and electronics recycling.
PPPL physicist Fatima Ebrahimi has used high-resolution computer simulations to confirm the practicality of the CHI start-up technique. The simulations show that CHI could produce electric current continuously in larger, more powerful tokamaks than exist today to produce stable fusion plasmas.
The Princeton Plasma Physics Laboratory receives funding from the U.S. Department of Energy for two projects to encourage entrepreneurship and mentor and encourage potential entrepreneurs.
PPPL and Princeton University are developing a unique neutron-detector robot for arms control and nuclear security purposes. The robot recently passed a key neutron-detection test.
Feature wraps-up wide-ranging PPPL talks on fusion and plasma science at the 61st American Physical Society-Department of Plasma Physics conference.
PPPL physicist Janardhan (Manny) Manickam was an international collaborator who was head of the Theory Division and an expert in magnetohydrodynamics and helped develop the PEST computer code used to predict disruptions in fusion experiments.
Profile of PPPL's Chris Smiet and Rupak Mukherjee and the post-doctoral honors they have won.
Scientists at PPPL have discovered that turbulence may play an increased role in affecting the self-driven, or bootstrap, current in plasma that is necessary for tokamak fusion reactions.
Surprise discovery shows that turbulence at the edge of the plasma may facilitate production of fusion energy.
PPPL's new chief engineer has collaborated on major fusion experiments in the U.S. and around the world in his 38-year career at the Laboratory.
A look at four INFUSE projects to speed the development of fusion energy that PPPL is working on.
Princeton University officially launches a new supercomputer, Traverse, that will accelerate development of the science at PPPL to bring the fusion that powers the sun and stars to Earth.
Researchers have constructed a framework for starting and raising a fusion plasma to temperatures rivaling the sun in hundreds of milliseconds.
Profile of physicist Stefan Gerhardt who has been elected a 2019 fellow of the American Physical Society.
Barbara Garcia, a Science Undergraduate Laboratory Internship program participant, used the resourcefulness and independence she acquired as a first-generation college student during her summer of research at the Princeton Plasma Physics Laboratory.
Feature describes improved model for forecasting the crucial balance of pressure at the edge of a fusion plasma.
Promise Adebayo-Ige was one of 45 interns at PPPL this past summer
The Princeton Plasma Physics Laboratory's 45 summer interns spent their summer doing hands-on research side-by-side with scientists and engineers at PPPL.
Features describes summer interns who built an acoustical levitator at PPPL.
PPPL kicks off a new apprentice program in which participants will receive competitive salaries and benefits as they learn on-the-job skills and take classes to become technicians.